C8051F34A-GMR Silicon Labs, C8051F34A-GMR Datasheet - Page 217

C8051F34A-GMR

Manufacturer Part Number

C8051F34A-GMR

Description

8-bit Microcontrollers - MCU 48 MIPS 64KB 10ADC

Manufacturer

Silicon Labs

Datasheet

1.C8051F349-GMR.pdf (276 pages)

Specifications of C8051F34A-GMR

Rohs

yes

Core

8051

Processor Series

C8051

Data Bus Width

8 bit

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space is made available in the FIFO for another incoming byte. If enabled, an interrupt will occur when RI1

is set. RI1 can only be cleared to '0' by software when there is no more information in the FIFO. The rec-

ommended procedure to empty the FIFO contents is as follows:

If the extra bit function is enabled (XBE1 = ‘1’) and the parity function is disabled (PE1 = ‘0’), the extra bit

for the oldest byte in the FIFO can be read from the RBX1 bit (SCON1.2). If the extra bit function is not

enabled, the value of the stop bit for the oldest FIFO byte will be presented in RBX1. When the parity func-

tion is enabled (PE1 = ‘1’), hardware will check the received parity bit against the selected parity type

(selected with S1PT[1:0]) when receiving data. If a byte with parity error is received, the PERR1 flag will be

set to ‘1’. This flag must be cleared by software. Note: when parity is enabled, the extra bit function is not

available.

19.3.3. Multiprocessor Communications

UART1 supports multiprocessor communication between a master processor and one or more slave pro-

cessors by special use of the extra data bit. When a master processor wants to transmit to one or more

slaves, it first sends an address byte to select the target(s). An address byte differs from a data byte in that

its extra bit is logic 1; in a data byte, the extra bit is always set to logic 0.

Setting the MCE1 bit (SMOD1.7) of a slave processor configures its UART such that when a stop bit is

received, the UART will generate an interrupt only if the extra bit is logic 1 (RBX1 = 1) signifying an

address byte has been received. In the UART interrupt handler, software will compare the received

address with the slave's own assigned address. If the addresses match, the slave will clear its MCE1 bit to

enable interrupts on the reception of the following data byte(s). Slaves that weren't addressed leave their

MCE1 bits set and do not generate interrupts on the reception of the following data bytes, thereby ignoring

the data. Once the entire message is received, the addressed slave resets its MCE1 bit to ignore all trans-

missions until it receives the next address byte.

Multiple addresses can be assigned to a single slave and/or a single address can be assigned to multiple

slaves, thereby enabling "broadcast" transmissions to more than one slave simultaneously. The master

processor can be configured to receive all transmissions or a protocol can be implemented such that the

master/slave role is temporarily reversed to enable half-duplex transmission between the original master

and slave(s).

1. Clear RI1 to '0'.

2. Read SBUF1.

3. Check RI1, and repeat at step 1 if RI1 is set to '1'. 

Master

Device

C8051F340/1/2/3/4/5/6/7/8/9/A/B/C/D

Device

Slave

Rev. 1.3

Device

Slave

Device

Slave

V+

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C8051F34A-GMR Silicon Labs, C8051F34A-GMR Datasheet - Page 217

C8051F34A-GMR

Specifications of C8051F34A-GMR

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